The Role of Hydrogen as a Sustainable Energy Source and its Integration with the Grid

Abstract

Hydrogen has emerged as a promising sustainable energy carrier with the potential to address key challenges in the transition towards a low-carbon energy system. This paper explores the role of hydrogen as a sustainable energy source and its integration with the grid to support the decarbonization of various sectors. We begin by examining the production pathways of hydrogen, including electrolysis powered by renewable energy sources and thermochemical water splitting. Next, we discuss the versatility of hydrogen as an energy carrier, suitable for applications in transportation, industry, power generation, and energy storage. The paper then delves into the challenges and opportunities associated with the integration of hydrogen into the existing energy infrastructure and grid. We analyze the technical and economic feasibility of hydrogen production, storage, and distribution, highlighting the importance of infrastructure development and policy support. Furthermore, we explore the potential synergies between hydrogen and renewable energy sources, such as wind and solar power, in facilitating grid stability and supporting the growth of renewable energy deployment. Finally, we discuss key considerations for maximizing the environmental and societal benefits of hydrogen, including lifecycle assessments, safety regulations, and public acceptance. Overall, this paper provides insights into the multifaceted role of hydrogen as a sustainable energy source and its integration with the grid, emphasizing its potential to contribute to a more resilient, secure, and low-carbon energy future. Keywords: Green Hydrogen, Renewable integration, Electrolysis, Fuel Cell.